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Learn about Gregor Mendel, the father of modern genetics, and his groundbreaking experiments with pea plants that led to the understanding of heredity. Explore the concepts of alleles, dominant and recessive traits, and the laws of segregation and independent assortment. Discover how probability and monohybrid crosses can help predict the likelihood of traits in offspring. Also, explore the use of test crosses to determine the genotype of individuals.
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Gregory Mendel • Born 1822; Died 1884 • Monk and a teacher • Work not recognized until 1900 • Studied heredity by studying pea plants • What is heredity?
MENDEL’S PEA PLANTS • Observed seven characteristics of pea plants with two different traits • Controlled how each plant was pollinated • Self-pollination or cross-pollination • What’s the difference?
MENDEL’S EXPERIMENTS • Grew true-breeding plants • What does it mean to be true breeding? • Starting strain called parent generation or P generation • Cross-pollinated P generation to produce offspring called the first filial generation or F1 generation • F1 generation self-pollinated and produce the second filial generation or F2 generation
P generation x All of the F1 showed one color F1 generation
P generation x F1 generation F2 produced plants about ¾ one trait and ¼ the other trait F2 generation
Results • Factor was controlling the traits since there were two traits there were two factors • Alleles: represent the factors - dominant CAPITAL LETTERS; recessive lower case letters; They are alternate forms of genes. • Dominanttrait: Able to repress the other trait • Recessivetrait: repressed by the dominant • Homozygous: same alleles; RR or rr – also called purebred or true breeding • Heterozygous: one of each allele forming a hybrid Rr • Genotype: allele pairs/actual DNA: RR, Rr, or rr • Phenotype: physical appearance; red, yellow, green, tall, short, etc. *You only see the recessive phenotype when there are two of the recessive alleles. Whenever you see the dominant phenotype, you cannot tell the genotype.* • Lead to the modern study of molecular genetics, the study of chromosomes and genes. Y y
Laws of Genetics • LawofSegregation: a pair of factors is segregated or separated during the formation of gametes (i.e. the homologous chromosomes are separated during anaphase I of meiosis I into different gametes.) • LawofIndependentAssortment: factors for different characteristics are distributed to gametes independently – factor for different traits do not follow each other into the same gamete
Probability • Probability that a specific event will occur; expressed as a decimal, fraction, or percent • Probability = Number of times an event happened Number of possible opportunities • The predicted results are more likely to occur the more trials that are performed
Monohybrid Crosses • Monohybrid cross: between individuals with one pair of contrasting traits ( mono = one) • Punnett squares are used to help predict the probability of a trait
Homozygous x Homozygous • Crossing two plants homozygous for color (P) • One dominant one recessive • PP x pp • Genotype • 4 Pp • Phenotype • 4 purple
Homozygous x Heterozygous • Crossing a homozygous dominant with a heterozygous plant for color (P) • PP x Pp • Genotype • 2 PP • 2 Pp • Phenotype • 4 purple
Homozygous x Heterozygous • Crossing a heterozygous plant with a homozygous recessive for color (P) • Pp x pp • Genotype • 2 Pp • 2 pp • Phenotype • 2 purple • 2 white
Heterozygous x Heterozygous • Both heterozygous for color (P) • Pp x Pp • Genotype • 1 PP • 2 Pp • 1 pp • Phenotype • 3 purple • 1 white
Testcross • Used to determine the genotype of a individual with an unknown genotype • Must use an organism of an known genotype hence use a homozygous recessive
